A block is placed on a inclined plane. The acceleration of gravity is 9.8 m/s2. 19° F 5 kg E=0.11 24° What force is required to push the block up the incline with constant velocity? Answer in units of N.
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- A huge pendulum is made out of a 10.5-m cable attached at the top to a steel beam. The bottom of the cable is attached to a 60.0-kg anvil that swings back and forth. At the very bottom of its swing, the anvil travels at a speed of 1.59 m/s. Find the tension (in N) in the cable. (You may assume that the cable itself has negligible mass.P₁ A 30° 5 ft 300 lb Fig. P3.29 X 50 lb B P₂ *3.29 The bar AB, which is inclined at the angle to the horizontal, is subjected to the four forces shown. Knowing that these forces have no resultant (neither a force nor a couple), determine P₁, P2, and 0.An antelope is being pulled by two forces whose vector-component expressions are: F1 = -9.3Ni + 7.3Nj + 9.2Nk F2 = -1Ni + -1.2Nj + 1Nk What is the angle (in degrees) between these two vectors?
- Compute the vertical and horizontal components for each of the forces shown.A huge pendulum is made out of a 8.26-m cable attached at the top to a steel beam. The bottom of the cable is attached to a 38.7-kg anvil that swings back and forth. At the very bottom of its swing, the anvil travels at a speed of 2.53 m/s. Find the tension (in N) in the cable. (You may assume that the cable itself has negligible mass.)A block of mass M = 79 Kg is suspended as shown in the figure. Knowing that T1 = 2582 N and 0 = 17.45°. (Take g=9.8 m/s²). D T2 M Find the following: Fg- N Fg, x= N Fg, y = T1, x= TLy N T2, x= T2, y
- An antelope is being pulled by two forces whose vector-component expressions are: F1 = 2.3Ni + -6.8Nj + -7.5Nk F2 = -9Ni + 1Nj + -5.1Nk What is the angle (in degrees) between these two vectors?Two forces, F = 2.50 i N and F2 = (1.20 i – 2.30 j) N , act on a 3.00 kg object. Find the magnitude of acceleration of the object. a = 4.0V m/s?Two forces FA and FB are applied to an object whose mass is 15.1 kg. The larger force is FA. When both forces point due east, the object's acceleration has a magnitude of 0.561 m/s². However, when FA points due east and FB points due west, the acceleration is 0.328 m/s², due east. Find (a) the magnitude of FA and (b) the magnitude of Fg. (a) Number i (b) Number i Units Units + ➜